/* * Copyright (c) 2011 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_ #define MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_ #include #include #include #include #include "common_audio/channel_buffer.h" #include "modules/audio_processing/include/audio_processing.h" namespace webrtc { class PushSincResampler; class SplittingFilter; enum Band { kBand0To8kHz = 0, kBand8To16kHz = 1, kBand16To24kHz = 2 }; // Stores any audio data in a way that allows the audio processing module to // operate on it in a controlled manner. class AudioBuffer { public: static const int kSplitBandSize = 160; static const size_t kMaxSampleRate = 384000; AudioBuffer(size_t input_rate, size_t input_num_channels, size_t buffer_rate, size_t buffer_num_channels, size_t output_rate, size_t output_num_channels); // The constructor below will be deprecated. AudioBuffer(size_t input_num_frames, size_t input_num_channels, size_t buffer_num_frames, size_t buffer_num_channels, size_t output_num_frames); virtual ~AudioBuffer(); AudioBuffer(const AudioBuffer&) = delete; AudioBuffer& operator=(const AudioBuffer&) = delete; // Specify that downmixing should be done by selecting a single channel. void set_downmixing_to_specific_channel(size_t channel); // Specify that downmixing should be done by averaging all channels,. void set_downmixing_by_averaging(); // Set the number of channels in the buffer. The specified number of channels // cannot be larger than the specified buffer_num_channels. The number is also // reset at each call to CopyFrom or InterleaveFrom. void set_num_channels(size_t num_channels); size_t num_channels() const { return num_channels_; } size_t num_frames() const { return buffer_num_frames_; } size_t num_frames_per_band() const { return num_split_frames_; } size_t num_bands() const { return num_bands_; } // Returns pointer arrays to the full-band channels. // Usage: // channels()[channel][sample]. // Where: // 0 <= channel < |buffer_num_channels_| // 0 <= sample < |buffer_num_frames_| float* const* channels() { return data_->channels(); } const float* const* channels_const() const { return data_->channels(); } // Returns pointer arrays to the bands for a specific channel. // Usage: // split_bands(channel)[band][sample]. // Where: // 0 <= channel < |buffer_num_channels_| // 0 <= band < |num_bands_| // 0 <= sample < |num_split_frames_| const float* const* split_bands_const(size_t channel) const { return split_data_.get() ? split_data_->bands(channel) : data_->bands(channel); } float* const* split_bands(size_t channel) { return split_data_.get() ? split_data_->bands(channel) : data_->bands(channel); } // Returns a pointer array to the channels for a specific band. // Usage: // split_channels(band)[channel][sample]. // Where: // 0 <= band < |num_bands_| // 0 <= channel < |buffer_num_channels_| // 0 <= sample < |num_split_frames_| const float* const* split_channels_const(Band band) const { if (split_data_.get()) { return split_data_->channels(band); } else { return band == kBand0To8kHz ? data_->channels() : nullptr; } } // Copies data into the buffer. void CopyFrom(const int16_t* const interleaved_data, const StreamConfig& stream_config); void CopyFrom(const float* const* stacked_data, const StreamConfig& stream_config); // Copies data from the buffer. void CopyTo(const StreamConfig& stream_config, int16_t* const interleaved_data); void CopyTo(const StreamConfig& stream_config, float* const* stacked_data); void CopyTo(AudioBuffer* buffer) const; // Splits the buffer data into frequency bands. void SplitIntoFrequencyBands(); // Recombines the frequency bands into a full-band signal. void MergeFrequencyBands(); // Copies the split bands data into the integer two-dimensional array. void ExportSplitChannelData(size_t channel, int16_t* const* split_band_data) const; // Copies the data in the integer two-dimensional array into the split_bands // data. void ImportSplitChannelData(size_t channel, const int16_t* const* split_band_data); static const size_t kMaxSplitFrameLength = 160; static const size_t kMaxNumBands = 3; // Deprecated methods, will be removed soon. float* const* channels_f() { return channels(); } const float* const* channels_const_f() const { return channels_const(); } const float* const* split_bands_const_f(size_t channel) const { return split_bands_const(channel); } float* const* split_bands_f(size_t channel) { return split_bands(channel); } const float* const* split_channels_const_f(Band band) const { return split_channels_const(band); } private: FRIEND_TEST_ALL_PREFIXES(AudioBufferTest, SetNumChannelsSetsChannelBuffersNumChannels); void RestoreNumChannels(); const size_t input_num_frames_; const size_t input_num_channels_; const size_t buffer_num_frames_; const size_t buffer_num_channels_; const size_t output_num_frames_; const size_t output_num_channels_; size_t num_channels_; size_t num_bands_; size_t num_split_frames_; std::unique_ptr> data_; std::unique_ptr> split_data_; std::unique_ptr splitting_filter_; std::vector> input_resamplers_; std::vector> output_resamplers_; bool downmix_by_averaging_ = true; size_t channel_for_downmixing_ = 0; }; } // namespace webrtc #endif // MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_